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Structural and Hardware Complexities of Microprocessor Design According to Moore's Law


Affiliations
1 Computer Science/Information Technology Departments, Lebanese International University – LIU, Bekaa - Lebanon, Lebanon
 

The most important factors of the microprocessors' development are improvement in the performance and increasing the speed of a microprocessor. Increasing the performance and the speed of a microprocessor majorly depends on the increasing of the number of transistors on a chip, which causes rapidly growing of microprocessor design complexity. The number of transistors should be doubled every 18-24 months related to Moore's Law. The doubling of transistor count affects increasing of the microprocessor design complexities (such as structural, hardware), raising power dissipation, and cost of design effort. This article presents a proposal to discuss the matter of scaling structural and hardware complexities of a microprocessor design related to Moore's Law. The structural and hardware complexities measurements are presented based on the discussion.

Keywords

Structural Complexity, Hardware Complexity, Microprocessor Design, Transistor Count, Die Size, Density.
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  • Structural and Hardware Complexities of Microprocessor Design According to Moore's Law

Abstract Views: 239  |  PDF Views: 135

Authors

Haissam El-Aawar
Computer Science/Information Technology Departments, Lebanese International University – LIU, Bekaa - Lebanon, Lebanon

Abstract


The most important factors of the microprocessors' development are improvement in the performance and increasing the speed of a microprocessor. Increasing the performance and the speed of a microprocessor majorly depends on the increasing of the number of transistors on a chip, which causes rapidly growing of microprocessor design complexity. The number of transistors should be doubled every 18-24 months related to Moore's Law. The doubling of transistor count affects increasing of the microprocessor design complexities (such as structural, hardware), raising power dissipation, and cost of design effort. This article presents a proposal to discuss the matter of scaling structural and hardware complexities of a microprocessor design related to Moore's Law. The structural and hardware complexities measurements are presented based on the discussion.

Keywords


Structural Complexity, Hardware Complexity, Microprocessor Design, Transistor Count, Die Size, Density.